本文整理汇总了Golang中github.com/pebbe/zmq2.NewPoller函数的典型用法代码示例。如果您正苦于以下问题:Golang NewPoller函数的具体用法?Golang NewPoller怎么用?Golang NewPoller使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了NewPoller函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Golang代码示例。
示例1: main
func main() {
frontend, _ := zmq.NewSocket(zmq.ROUTER)
backend, _ := zmq.NewSocket(zmq.ROUTER)
defer frontend.Close()
defer backend.Close()
frontend.Bind("tcp://*:5555") // For clients
backend.Bind("tcp://*:5556") // For workers
// Queue of available workers
workers := make([]string, 0)
poller1 := zmq.NewPoller()
poller1.Add(backend, zmq.POLLIN)
poller2 := zmq.NewPoller()
poller2.Add(backend, zmq.POLLIN)
poller2.Add(frontend, zmq.POLLIN)
// The body of this example is exactly the same as lbbroker2.
LOOP:
for {
// Poll frontend only if we have available workers
var sockets []zmq.Polled
var err error
if len(workers) > 0 {
sockets, err = poller2.Poll(-1)
} else {
sockets, err = poller1.Poll(-1)
}
if err != nil {
break // Interrupted
}
for _, socket := range sockets {
switch s := socket.Socket; s {
case backend: // Handle worker activity on backend
// Use worker identity for load-balancing
msg, err := s.RecvMessage(0)
if err != nil {
break LOOP // Interrupted
}
var identity string
identity, msg = unwrap(msg)
workers = append(workers, identity)
// Forward message to client if it's not a READY
if msg[0] != WORKER_READY {
frontend.SendMessage(msg)
}
case frontend:
// Get client request, route to first available worker
msg, err := s.RecvMessage(0)
if err == nil {
backend.SendMessage(workers[0], "", msg)
workers = workers[1:]
}
}
}
}
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:59,代码来源:spqueue.go
示例2: ConnectToBroker
// Connect or reconnect to broker.
func (mdcli *Mdcli) ConnectToBroker() (err error) {
if mdcli.client != nil {
mdcli.client.Close()
mdcli.client = nil
}
mdcli.client, err = zmq.NewSocket(zmq.REQ)
if err != nil {
if mdcli.verbose {
log.Println("E: ConnectToBroker() creating socket failed")
}
return
}
mdcli.poller = zmq.NewPoller()
mdcli.poller.Add(mdcli.client, zmq.POLLIN)
if mdcli.verbose {
log.Printf("I: connecting to broker at %s...", mdcli.broker)
}
err = mdcli.client.Connect(mdcli.broker)
if err != nil && mdcli.verbose {
log.Println("E: ConnectToBroker() failed to connect to broker", mdcli.broker)
}
return
}
开发者ID:rrudduck,项目名称:golang-stuff,代码行数:26,代码来源:mdcliapi.go
示例3: main
func main() {
// Connect to task ventilator
receiver, _ := zmq.NewSocket(zmq.PULL)
defer receiver.Close()
receiver.Connect("tcp://localhost:5557")
// Connect to weather server
subscriber, _ := zmq.NewSocket(zmq.SUB)
defer subscriber.Close()
subscriber.Connect("tcp://localhost:5556")
subscriber.SetSubscribe("10001 ")
// Initialize poll set
poller := zmq.NewPoller()
poller.Add(receiver, zmq.POLLIN)
poller.Add(subscriber, zmq.POLLIN)
// Process messages from both sockets
for {
sockets, _ := poller.Poll(-1)
for _, socket := range sockets {
switch s := socket.Socket; s {
case receiver:
task, _ := s.Recv(0)
// Process task
fmt.Println("Got task:", task)
case subscriber:
update, _ := s.Recv(0)
// Process weather update
fmt.Println("Got weather update:", update)
}
}
}
}
开发者ID:rrudduck,项目名称:golang-stuff,代码行数:34,代码来源:mspoller.go
示例4: flcliapi_agent
func flcliapi_agent() {
agent := agent_new()
poller := zmq.NewPoller()
poller.Add(agent.pipe, zmq.POLLIN)
poller.Add(agent.router, zmq.POLLIN)
for {
// Calculate tickless timer, up to 1 hour
tickless := time.Now().Add(time.Hour)
if len(agent.request) > 0 && tickless.After(agent.expires) {
tickless = agent.expires
}
for key := range agent.servers {
tickless = agent.servers[key].tickless(tickless)
}
polled, err := poller.Poll(tickless.Sub(time.Now()))
if err != nil {
break // Context has been shut down
}
for _, item := range polled {
switch item.Socket {
case agent.pipe:
agent.control_message()
case agent.router:
agent.router_message()
}
}
// If we're processing a request, dispatch to next server
if len(agent.request) > 0 {
if time.Now().After(agent.expires) {
// Request expired, kill it
agent.pipe.SendMessage("FAILED")
agent.request = agent.request[0:0]
} else {
// Find server to talk to, remove any expired ones
for len(agent.actives) > 0 {
server := agent.actives[0]
if time.Now().After(server.expires) {
agent.actives = agent.actives[1:]
server.alive = false
} else {
agent.router.SendMessage(server.endpoint, agent.request)
break
}
}
}
}
// --(Disconnect and delete any expired servers)--
// Send heartbeats to idle servers if needed
for key := range agent.servers {
agent.servers[key].ping(agent.router)
}
}
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:58,代码来源:flcliapi.go
示例5: main
func main() {
frontend, _ := zmq.NewSocket(zmq.SUB)
frontend.Bind("tcp://*:5557")
backend, _ := zmq.NewSocket(zmq.XPUB)
backend.Bind("tcp://*:5558")
// Subscribe to every single topic from publisher
frontend.SetSubscribe("")
// Store last instance of each topic in a cache
cache := make(map[string]string)
// We route topic updates from frontend to backend, and
// we handle subscriptions by sending whatever we cached,
// if anything:
poller := zmq.NewPoller()
poller.Add(frontend, zmq.POLLIN)
poller.Add(backend, zmq.POLLIN)
LOOP:
for {
polled, err := poller.Poll(1000 * time.Millisecond)
if err != nil {
break // Interrupted
}
for _, item := range polled {
switch socket := item.Socket; socket {
case frontend:
// Any new topic data we cache and then forward
msg, err := frontend.RecvMessage(0)
if err != nil {
break LOOP
}
cache[msg[0]] = msg[1]
backend.SendMessage(msg)
case backend:
// When we get a new subscription we pull data from the cache:
msg, err := backend.RecvMessage(0)
if err != nil {
break LOOP
}
frame := msg[0]
// Event is one byte 0=unsub or 1=sub, followed by topic
if frame[0] == 1 {
topic := frame[1:]
fmt.Println("Sending cached topic", topic)
previous, ok := cache[topic]
if ok {
backend.SendMessage(topic, previous)
}
}
}
}
}
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:55,代码来源:lvcache.go
示例6: main
func main() {
verbose := false
if len(os.Args) > 1 && os.Args[1] == "-v" {
verbose = true
}
broker, _ := NewBroker(verbose)
broker.Bind("tcp://*:5555")
poller := zmq.NewPoller()
poller.Add(broker.socket, zmq.POLLIN)
// Get and process messages forever or until interrupted
for {
polled, err := poller.Poll(HEARTBEAT_INTERVAL)
if err != nil {
break // Interrupted
}
// Process next input message, if any
if len(polled) > 0 {
msg, err := broker.socket.RecvMessage(0)
if err != nil {
break // Interrupted
}
if broker.verbose {
log.Printf("I: received message: %q\n", msg)
}
sender, msg := popStr(msg)
_, msg = popStr(msg)
header, msg := popStr(msg)
switch header {
case mdapi.MDPC_CLIENT:
broker.ClientMsg(sender, msg)
case mdapi.MDPW_WORKER:
broker.WorkerMsg(sender, msg)
default:
log.Printf("E: invalid message: %q\n", msg)
}
}
// Disconnect and delete any expired workers
// Send heartbeats to idle workers if needed
if time.Now().After(broker.heartbeat_at) {
broker.Purge()
for _, worker := range broker.waiting {
worker.Send(mdapi.MDPW_HEARTBEAT, "", []string{})
}
broker.heartbeat_at = time.Now().Add(HEARTBEAT_INTERVAL)
}
}
log.Println("W: interrupt received, shutting down...")
}
开发者ID:rrudduck,项目名称:golang-stuff,代码行数:53,代码来源:mdbroker.go
示例7: s_worker_socket
func s_worker_socket() (*zmq.Socket, *zmq.Poller) {
worker, _ := zmq.NewSocket(zmq.DEALER)
worker.Connect("tcp://localhost:5556")
// Tell queue we're ready for work
fmt.Println("I: worker ready")
worker.Send(PPP_READY, 0)
poller := zmq.NewPoller()
poller.Add(worker, zmq.POLLIN)
return worker, poller
}
开发者ID:rrudduck,项目名称:golang-stuff,代码行数:13,代码来源:ppworker.go
示例8: main
func main() {
// First argument is this broker's name
// Other arguments are our peers' names
//
if len(os.Args) < 2 {
fmt.Println("syntax: peering1 me {you}...")
os.Exit(1)
}
self := os.Args[1]
fmt.Printf("I: preparing broker at %s...\n", self)
rand.Seed(time.Now().UnixNano())
// Bind state backend to endpoint
statebe, _ := zmq.NewSocket(zmq.PUB)
defer statebe.Close()
statebe.Bind("ipc://" + self + "-state.ipc")
// Connect statefe to all peers
statefe, _ := zmq.NewSocket(zmq.SUB)
defer statefe.Close()
statefe.SetSubscribe("")
for _, peer := range os.Args[2:] {
fmt.Printf("I: connecting to state backend at '%s'\n", peer)
statefe.Connect("ipc://" + peer + "-state.ipc")
}
// The main loop sends out status messages to peers, and collects
// status messages back from peers. The zmq_poll timeout defines
// our own heartbeat:
poller := zmq.NewPoller()
poller.Add(statefe, zmq.POLLIN)
for {
// Poll for activity, or 1 second timeout
sockets, err := poller.Poll(time.Second)
if err != nil {
break
}
// Handle incoming status messages
if len(sockets) == 1 {
msg, _ := statefe.RecvMessage(0)
peer_name := msg[0]
available := msg[1]
fmt.Printf("%s - %s workers free\n", peer_name, available)
} else {
statebe.SendMessage(self, rand.Intn(10))
}
}
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:50,代码来源:peering1.go
示例9: main
func main() {
// Socket to receive messages on
receiver, _ := zmq.NewSocket(zmq.PULL)
defer receiver.Close()
receiver.Connect("tcp://localhost:5557")
// Socket to send messages to
sender, _ := zmq.NewSocket(zmq.PUSH)
defer sender.Close()
sender.Connect("tcp://localhost:5558")
// Socket for control input
controller, _ := zmq.NewSocket(zmq.SUB)
defer controller.Close()
controller.Connect("tcp://localhost:5559")
controller.SetSubscribe("")
// Process messages from receiver and controller
poller := zmq.NewPoller()
poller.Add(receiver, zmq.POLLIN)
poller.Add(controller, zmq.POLLIN)
// Process messages from both sockets
LOOP:
for {
sockets, _ := poller.Poll(-1)
for _, socket := range sockets {
switch s := socket.Socket; s {
case receiver:
msg, _ := s.Recv(0)
// Do the work
t, _ := strconv.Atoi(msg)
time.Sleep(time.Duration(t) * time.Millisecond)
// Send results to sink
sender.Send(msg, 0)
// Simple progress indicator for the viewer
fmt.Printf(".")
case controller:
// Any controller command acts as 'KILL'
break LOOP // Exit loop
}
}
}
fmt.Println()
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:47,代码来源:taskwork2.go
示例10: agent
func (iface *Intface) agent() {
// Create agent instance to pass around
agent := new_agent()
// Send first beacon immediately
ping_at := time.Now()
poller := zmq.NewPoller()
poller.Add(agent.pipe, zmq.POLLIN)
poller.Add(agent.udp, zmq.POLLIN)
bcast := &net.UDPAddr{Port: PING_PORT_NUMBER, IP: net.IPv4bcast}
for {
timeout := ping_at.Add(time.Millisecond).Sub(time.Now())
if timeout < 0 {
timeout = 0
}
polled, err := poller.Poll(timeout)
if err != nil {
break
}
for _, item := range polled {
switch socket := item.Socket; socket {
case agent.pipe:
// If we had activity on the pipe, go handle the control
// message. Current code never sends control messages.
agent.control_message()
case agent.udp:
// If we had input on the UDP socket, go process that
agent.handle_beacon()
}
}
// If we passed the 1-second mark, broadcast our beacon
now := time.Now()
if now.After(ping_at) {
agent.conn.WriteTo(agent.uuid_bytes, bcast)
ping_at = now.Add(PING_INTERVAL)
}
// Delete and report any expired peers
for _, peer := range agent.peers {
agent.reap_peer(peer)
}
}
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:47,代码来源:intface.go
示例11: try_request
func try_request(endpoint string, request []string) (reply []string, err error) {
fmt.Printf("I: trying echo service at %s...\n", endpoint)
client, _ := zmq.NewSocket(zmq.REQ)
client.Connect(endpoint)
// Send request, wait safely for reply
client.SendMessage(request)
poller := zmq.NewPoller()
poller.Add(client, zmq.POLLIN)
polled, err := poller.Poll(REQUEST_TIMEOUT)
reply = []string{}
if len(polled) == 1 {
reply, err = client.RecvMessage(0)
} else {
err = errors.New("Time out")
}
return
}
开发者ID:rrudduck,项目名称:golang-stuff,代码行数:18,代码来源:flclient1.go
示例12: main
func main() {
// Prepare our sockets
frontend, _ := zmq.NewSocket(zmq.ROUTER)
defer frontend.Close()
backend, _ := zmq.NewSocket(zmq.DEALER)
defer backend.Close()
frontend.Bind("tcp://*:5559")
backend.Bind("tcp://*:5560")
// Initialize poll set
poller := zmq.NewPoller()
poller.Add(frontend, zmq.POLLIN)
poller.Add(backend, zmq.POLLIN)
// Switch messages between sockets
for {
sockets, _ := poller.Poll(-1)
for _, socket := range sockets {
switch s := socket.Socket; s {
case frontend:
for {
msg, _ := s.Recv(0)
if more, _ := s.GetRcvmore(); more {
backend.Send(msg, zmq.SNDMORE)
} else {
backend.Send(msg, 0)
break
}
}
case backend:
for {
msg, _ := s.Recv(0)
if more, _ := s.GetRcvmore(); more {
frontend.Send(msg, zmq.SNDMORE)
} else {
frontend.Send(msg, 0)
break
}
}
}
}
}
}
开发者ID:patrickToca,项目名称:zmq2,代码行数:43,代码来源:rrbroker.go
示例13: client_task
func client_task(i int) {
client, _ := zmq.NewSocket(zmq.REQ)
defer client.Close()
client.Connect("ipc://" + self + "-localfe.ipc")
monitor, _ := zmq.NewSocket(zmq.PUSH)
defer monitor.Close()
monitor.Connect("ipc://" + self + "-monitor.ipc")
poller := zmq.NewPoller()
poller.Add(client, zmq.POLLIN)
for {
time.Sleep(time.Duration(rand.Intn(5000)) * time.Millisecond)
for burst := rand.Intn(15); burst > 0; burst-- {
task_id := fmt.Sprintf("%04X-%s-%d", rand.Intn(0x10000), self, i)
// Send request with random hex ID
client.Send(task_id, 0)
// Wait max ten seconds for a reply, then complain
sockets, err := poller.Poll(10 * time.Second)
if err != nil {
break // Interrupted
}
if len(sockets) == 1 {
reply, err := client.Recv(0)
if err != nil {
break // Interrupted
}
// Worker is supposed to answer us with our task id
id := strings.Fields(reply)[0]
if id != task_id {
panic("id != task_id")
}
monitor.Send(reply, 0)
} else {
monitor.Send("E: CLIENT EXIT - lost task "+task_id, 0)
return
}
}
}
}
开发者ID:patrickToca,项目名称:zmq2,代码行数:42,代码来源:peering3.go
示例14: ConnectToBroker
// Connect or reconnect to broker.
func (mdwrk *Mdwrk) ConnectToBroker() (err error) {
if mdwrk.worker != nil {
mdwrk.worker.Close()
mdwrk.worker = nil
}
mdwrk.worker, err = zmq.NewSocket(zmq.DEALER)
err = mdwrk.worker.Connect(mdwrk.broker)
if mdwrk.verbose {
log.Printf("I: connecting to broker at %s...\n", mdwrk.broker)
}
mdwrk.poller = zmq.NewPoller()
mdwrk.poller.Add(mdwrk.worker, zmq.POLLIN)
// Register service with broker
err = mdwrk.SendToBroker(MDPW_READY, mdwrk.service, []string{})
// If liveness hits zero, queue is considered disconnected
mdwrk.liveness = heartbeat_liveness
mdwrk.heartbeat_at = time.Now().Add(mdwrk.heartbeat)
return
}
开发者ID:rrudduck,项目名称:golang-stuff,代码行数:23,代码来源:mdwrkapi.go
示例15: request
func (client *flclient_t) request(request ...string) (reply []string, err error) {
reply = []string{}
// Prefix request with sequence number and empty envelope
client.sequence++
// Blast the request to all connected servers
for server := 0; server < client.servers; server++ {
client.socket.SendMessage("", client.sequence, request)
}
// Wait for a matching reply to arrive from anywhere
// Since we can poll several times, calculate each one
endtime := time.Now().Add(GLOBAL_TIMEOUT)
poller := zmq.NewPoller()
poller.Add(client.socket, zmq.POLLIN)
for time.Now().Before(endtime) {
polled, err := poller.Poll(endtime.Sub(time.Now()))
if err == nil && len(polled) > 0 {
// Reply is [empty][sequence][OK]
reply, _ = client.socket.RecvMessage(0)
if len(reply) != 3 {
panic("len(reply) != 3")
}
sequence := reply[1]
reply = reply[2:]
sequence_nbr, _ := strconv.Atoi(sequence)
if sequence_nbr == client.sequence {
break
}
}
}
if len(reply) == 0 {
err = errors.New("No reply")
}
return
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:36,代码来源:flclient2.go
示例16: main
func main() {
// First argument is this broker's name
// Other arguments are our peers' names
//
if len(os.Args) < 2 {
fmt.Println("syntax: peering1 me {you}…")
os.Exit(1)
}
self = os.Args[1]
fmt.Printf("I: preparing broker at %s…\n", self)
rand.Seed(time.Now().UnixNano())
// Prepare local frontend and backend
localfe, _ := zmq.NewSocket(zmq.ROUTER)
defer localfe.Close()
localfe.Bind("ipc://" + self + "-localfe.ipc")
localbe, _ := zmq.NewSocket(zmq.ROUTER)
defer localbe.Close()
localbe.Bind("ipc://" + self + "-localbe.ipc")
// Bind cloud frontend to endpoint
cloudfe, _ := zmq.NewSocket(zmq.ROUTER)
defer cloudfe.Close()
cloudfe.SetIdentity(self)
cloudfe.Bind("ipc://" + self + "-cloud.ipc")
// Connect cloud backend to all peers
cloudbe, _ := zmq.NewSocket(zmq.ROUTER)
defer cloudbe.Close()
cloudbe.SetIdentity(self)
for _, peer := range os.Args[2:] {
fmt.Printf("I: connecting to cloud frontend at '%s'\n", peer)
cloudbe.Connect("ipc://" + peer + "-cloud.ipc")
}
// Bind state backend to endpoint
statebe, _ := zmq.NewSocket(zmq.PUB)
defer statebe.Close()
statebe.Bind("ipc://" + self + "-state.ipc")
// Connect state frontend to all peers
statefe, _ := zmq.NewSocket(zmq.SUB)
defer statefe.Close()
statefe.SetSubscribe("")
for _, peer := range os.Args[2:] {
fmt.Printf("I: connecting to state backend at '%s'\n", peer)
statefe.Connect("ipc://" + peer + "-state.ipc")
}
// Prepare monitor socket
monitor, _ := zmq.NewSocket(zmq.PULL)
defer monitor.Close()
monitor.Bind("ipc://" + self + "-monitor.ipc")
// After binding and connecting all our sockets, we start our child
// tasks - workers and clients:
for worker_nbr := 0; worker_nbr < NBR_WORKERS; worker_nbr++ {
go worker_task(worker_nbr)
}
// Start local clients
for client_nbr := 0; client_nbr < NBR_CLIENTS; client_nbr++ {
go client_task(client_nbr)
}
// Queue of available workers
local_capacity := 0
cloud_capacity := 0
workers := make([]string, 0)
primary := zmq.NewPoller()
primary.Add(localbe, zmq.POLLIN)
primary.Add(cloudbe, zmq.POLLIN)
primary.Add(statefe, zmq.POLLIN)
primary.Add(monitor, zmq.POLLIN)
secondary1 := zmq.NewPoller()
secondary1.Add(localfe, zmq.POLLIN)
secondary2 := zmq.NewPoller()
secondary2.Add(localfe, zmq.POLLIN)
secondary2.Add(cloudfe, zmq.POLLIN)
msg := make([]string, 0)
for {
// If we have no workers ready, wait indefinitely
timeout := time.Duration(time.Second)
if local_capacity == 0 {
timeout = -1
}
sockets, err := primary.Poll(timeout)
if err != nil {
break // Interrupted
}
// Track if capacity changes during this iteration
previous := local_capacity
// Handle reply from local worker
msg = msg[0:0]
//.........这里部分代码省略.........
开发者ID:patrickToca,项目名称:zmq2,代码行数:101,代码来源:peering3.go
示例17: main
func main() {
// Prepare our sockets
frontend, _ := zmq.NewSocket(zmq.ROUTER)
backend, _ := zmq.NewSocket(zmq.ROUTER)
defer frontend.Close()
defer backend.Close()
frontend.Bind("ipc://frontend.ipc")
backend.Bind("ipc://backend.ipc")
client_nbr := 0
for ; client_nbr < NBR_CLIENTS; client_nbr++ {
go client_task()
}
for worker_nbr := 0; worker_nbr < NBR_WORKERS; worker_nbr++ {
go worker_task()
}
// Here is the main loop for the least-recently-used queue. It has two
// sockets; a frontend for clients and a backend for workers. It polls
// the backend in all cases, and polls the frontend only when there are
// one or more workers ready. This is a neat way to use 0MQ's own queues
// to hold messages we're not ready to process yet. When we get a client
// reply, we pop the next available worker, and send the request to it,
// including the originating client identity. When a worker replies, we
// re-queue that worker, and we forward the reply to the original client,
// using the reply envelope.
// Queue of available workers
worker_queue := make([]string, 0, 10)
poller1 := zmq.NewPoller()
poller1.Add(backend, zmq.POLLIN)
poller2 := zmq.NewPoller()
poller2.Add(backend, zmq.POLLIN)
poller2.Add(frontend, zmq.POLLIN)
for client_nbr > 0 {
// Poll frontend only if we have available workers
var sockets []zmq.Polled
if len(worker_queue) > 0 {
sockets, _ = poller2.Poll(-1)
} else {
sockets, _ = poller1.Poll(-1)
}
for _, socket := range sockets {
switch socket.Socket {
case backend:
// Handle worker activity on backend
// Queue worker identity for load-balancing
worker_id, _ := backend.Recv(0)
if !(len(worker_queue) < NBR_WORKERS) {
panic("!(len(worker_queue) < NBR_WORKERS)")
}
worker_queue = append(worker_queue, worker_id)
// Second frame is empty
empty, _ := backend.Recv(0)
if empty != "" {
panic(fmt.Sprintf("empty is not \"\": %q", empty))
}
// Third frame is READY or else a client reply identity
client_id, _ := backend.Recv(0)
// If client reply, send rest back to frontend
if client_id != "READY" {
empty, _ := backend.Recv(0)
if empty != "" {
panic(fmt.Sprintf("empty is not \"\": %q", empty))
}
reply, _ := backend.Recv(0)
frontend.Send(client_id, zmq.SNDMORE)
frontend.Send("", zmq.SNDMORE)
frontend.Send(reply, 0)
client_nbr--
}
case frontend:
// Here is how we handle a client request:
// Now get next client request, route to last-used worker
// Client request is [identity][empty][request]
client_id, _ := frontend.Recv(0)
empty, _ := frontend.Recv(0)
if empty != "" {
panic(fmt.Sprintf("empty is not \"\": %q", empty))
}
request, _ := frontend.Recv(0)
backend.Send(worker_queue[0], zmq.SNDMORE)
backend.Send("", zmq.SNDMORE)
backend.Send(client_id, zmq.SNDMORE)
backend.Send("", zmq.SNDMORE)
backend.Send(request, 0)
// Dequeue and drop the next worker identity
worker_queue = worker_queue[1:]
}
//.........这里部分代码省略.........
开发者ID:rrudduck,项目名称:golang-stuff,代码行数:101,代码来源:lbbroker.go
示例18: main
func main() {
fmt.Println("I: connecting to server...")
client, err := zmq.NewSocket(zmq.REQ)
if err != nil {
panic(err)
}
client.Connect(SERVER_ENDPOINT)
poller := zmq.NewPoller()
poller.Add(client, zmq.POLLIN)
sequence := 0
retries_left := REQUEST_RETRIES
for retries_left > 0 {
// We send a request, then we work to get a reply
sequence++
client.SendMessage(sequence)
for expect_reply := true; expect_reply; {
// Poll socket for a reply, with timeout
sockets, err := poller.Poll(REQUEST_TIMEOUT)
if err != nil {
break // Interrupted
}
// Here we process a server reply and exit our loop if the
// reply is valid. If we didn't a reply we close the client
// socket and resend the request. We try a number of times
// before finally abandoning:
if len(sockets) > 0 {
// We got a reply from the server, must match sequence
reply, err := client.RecvMessage(0)
if err != nil {
break // Interrupted
}
seq, _ := strconv.Atoi(reply[0])
if seq == sequence {
fmt.Printf("I: server replied OK (%s)\n", reply[0])
retries_left = REQUEST_RETRIES
expect_reply = false
} else {
fmt.Printf("E: malformed reply from server: %s\n", reply)
}
} else {
retries_left--
if retries_left == 0 {
fmt.Println("E: server seems to be offline, abandoning")
break
} else {
fmt.Println("W: no response from server, retrying...")
// Old socket is confused; close it and open a new one
client.Close()
client, _ = zmq.NewSocket(zmq.REQ)
client.Connect(SERVER_ENDPOINT)
// Recreate poller for new client
poller = zmq.NewPoller()
poller.Add(client, zmq.POLLIN)
// Send request again, on new socket
client.SendMessage(sequence)
}
}
}
}
client.Close()
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:66,代码来源:lpclient.go
示例19: main
func main() {
snapshot, _ := zmq.NewSocket(zmq.DEALER)
snapshot.Connect("tcp://localhost:5556")
subscriber, _ := zmq.NewSocket(zmq.SUB)
subscriber.SetSubscribe("")
subscriber.Connect("tcp://localhost:5557")
publisher, _ := zmq.NewSocket(zmq.PUSH)
publisher.Connect("tcp://localhost:5558")
kvmap := make(map[string]*kvsimple.Kvmsg)
rand.Seed(time.Now().UnixNano())
// We first request a state snapshot:
sequence := int64(0)
snapshot.SendMessage("ICANHAZ?")
for {
kvmsg, err := kvsimple.RecvKvmsg(snapshot)
if err != nil {
break // Interrupted
}
if key, _ := kvmsg.GetKey(); key == "KTHXBAI" {
sequence, _ := kvmsg.GetSequence()
fmt.Println("I: received snapshot =", sequence)
break // Done
}
kvmsg.Store(kvmap)
}
snapshot.Close()
// Now we wait for updates from the server, and every so often, we
// send a random key-value update to the server:
poller := zmq.NewPoller()
poller.Add(subscriber, zmq.POLLIN)
alarm := time.Now().Add(1000 * time.Millisecond)
for {
tickless := alarm.Sub(time.Now())
if tickless < 0 {
tickless = 0
}
polled, err := poller.Poll(tickless)
if err != nil {
break // Context has been shut down
}
if len(polled) == 1 {
kvmsg, err := kvsimple.RecvKvmsg(subscriber)
if err != nil {
break // Interrupted
}
// Discard out-of-sequence kvmsgs, incl. heartbeats
if seq, _ := kvmsg.GetSequence(); seq > sequence {
sequence = seq
kvmsg.Store(kvmap)
fmt.Println("I: received update =", sequence)
}
}
// If we timed-out, generate a random kvmsg
if time.Now().After(alarm) {
kvmsg := kvsimple.NewKvmsg(0)
kvmsg.SetKey(fmt.Sprint(rand.Intn(10000)))
kvmsg.SetBody(fmt.Sprint(rand.Intn(1000000)))
kvmsg.Send(publisher)
alarm = time.Now().Add(1000 * time.Millisecond)
}
}
fmt.Printf("Interrupted\n%d messages in\n", sequence)
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:68,代码来源:clonecli3.go
示例20: state_manager
func state_manager() {
kvmap := make(map[string]*kvsimple.Kvmsg)
pipe, _ := zmq.NewSocket(zmq.PAIR)
pipe.Connect("inproc://pipe")
pipe.SendMessage("READY")
snapshot, _ := zmq.NewSocket(zmq.ROUTER)
snapshot.Bind("tcp://*:5556")
poller := zmq.NewPoller()
poller.Add(pipe, zmq.POLLIN)
poller.Add(snapshot, zmq.POLLIN)
sequence := int64(0) // Current snapshot version number
LOOP:
for {
polled, err := poller.Poll(-1)
if err != nil {
break // Context has been shut down
}
for _, item := range polled {
switch socket := item.Socket; socket {
case pipe:
// Apply state update from main thread
kvmsg, err := kvsimple.RecvKvmsg(pipe)
if err != nil {
break LOOP // Interrupted
}
sequence, _ = kvmsg.GetSequence()
kvmsg.Store(kvmap)
case snapshot:
// Execute state snapshot request
msg, err := snapshot.RecvMessage(0)
if err != nil {
break LOOP // Interrupted
}
identity := msg[0]
// Request is in second frame of message
request := msg[1]
if request != "ICANHAZ?" {
fmt.Println("E: bad request, aborting")
break LOOP
}
// Send state snapshot to client
// For each entry in kvmap, send kvmsg to client
for _, kvmsg := range kvmap {
snapshot.Send(identity, zmq.SNDMORE)
kvmsg.Send(snapshot)
}
// Give client some time to deal with it.
// This reduces the risk that the client won't see
// the END message, but it doesn't eliminate the risk.
time.Sleep(100 * time.Millisecond)
// Now send END message with sequence number
fmt.Printf("Sending state shapshot=%d\n", sequence)
snapshot.Send(identity, zmq.SNDMORE)
kvmsg := kvsimple.NewKvmsg(sequence)
kvmsg.SetKey("KTHXBAI")
kvmsg.SetBody("")
kvmsg.Send(snapshot)
}
}
}
}
开发者ID:johnvilsack,项目名称:golang-stuff,代码行数:66,代码来源:clonesrv2.go
注:本文中的github.com/pebbe/zmq2.NewPoller函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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